PMID: 16509041Apr 25, 1975Paper

Glycoprotein biosynthesis: studies on thyroid mannosyltransferases. II. Characterization of a polyisoprenyl mannosyl phosphate and evaluation of its intermediary role in the glycosylation of exogenous acceptors.

The Journal of Biological Chemistry
A M Adamany, R G Spiro

Abstract

The transfer of mannose from GDP-mannonse to exogenous glycopeptides and simple glycosides has been shown to be carried out by calf thyroid particles (Adamany, A. M., and Spiro, R. G. (1975) J. Biol. Chem. 250, 2830-2841). The present investigation indicates that this mannosylation process is accomplished through two sequential enzymatic reactions. The first involves the transfer of mannose from the sugar nucleotide to an endogenous acceptor to form a compound which has the properties of dolichyl mannosyl phosphate, while in the properties of dolichyl mannosyl phosphate, while in the second reaction this mannolipid serves as the glycosyl donor to exogenous acceptors. The particle-bound enzyme which catalyzed the first reaction utilized GDP-mannose (Km = 0.29 microM) as the most effective mannosyl donor, required a divalent cation, preferably manganese or calcium, and acted optimally at pH 6.3. Mannolipid synthesis was reversed by addition of GDP and a ready exchange of the mannose moiety was observed between [14C]mannolipid and unlabeled GDP-mannose. Exogenously supplied dolichyl phosphate, and to a lesser extent ficaprenyl phosphate, served as acceptors for the transfer reaction. The 14C-labeled endogenous lipid had the same c...Continue Reading

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